Many people in Congress have complained about the lack of an American man rated rocket to send astronauts to the ISS. Why not pay a few astronauts ~$20 million each to stay on the ISS continuously for several years, instead of buying a few rides every year at sixty million each? Maybe we should put up some cheaper World of Warcraft addicts instead. If we're going to have people living most of their lives in outer space, astronauts should be spending longer stretches of time in outer space. Or maybe this is rhetoric by Congress to get more spending.

A separate station with artificial gravity could be placed in the same orbit as the ISS. People who lived and worked in earth orbit could work at the ISS for a week or so, and then go back to the rotating space station for a few weeks to get their required dose of gravity.

The gravity station could consist of two modules separated by 200 feet that rotate around each other. They would be connected to each other by cables, and there would be a docking module located at the center of rotation. According to the artificial gravity calculator at http://www.artificial-gravity.com/sw/Sp ... inCalc.htm an artificial gravity equivalent to the moon's would require a spin rate of 2.2 rotations per minute.

Small shuttle craft could be used to go back and forth between the ISS and the gravity station. They would have to match the rotation rate as they approach the docking module of the gravity station. Once inside the docking module the astronaut would take an elevator "down" to one of the residence modules.

Given the money, why not build it all into one station, with a rotating part and a stationary part in the middle, that way you would not need to waste fuel getting from one station to the other and you could sleep in gravity every night.

Of course this will mean a major reconfiguration of ISS or a new station all together. However I think that it will be a way better solution in the long run.

Yes, in the long run it would be better to attach the gravity station to the ISS. However, this would require a near-frictionless bearing to keep the rotating station from slowing down, and to prevent the ISS from picking up the rotation.

There are also questions about re-orienting the ISS and re-boosting it. These maneuvers would be complicated if the gravity station where attached to the ISS. There may also be a mechanical interaction with the gravity station that would interfere with certain experiments.

Transporting to a detached gravity station could be done by donning a spacesuit and using a small thruster unit to travel a few hundred feet between the two stations. However, I'm thinking that the distance between the two stations would be at least a mile to reduce the possibility of them crashing into each other.

Also currently getting into a space suit takes hours, as you have to let your body adjust to the pure oxygen atmosphere and the low pressure. Not good for a daily commute. I don't see the problem with the bearing friction though, you'll need thrusters or reaction wheels anyway for station keeping and keeping your orientation, so a small amount of friction can be compensated for.

_________________Say, can you feel the thunder in the air? Just like the moment ’fore it hits – then it’s everywhereWhat is this spell we’re under, do you care? The might to rise above it is now within your sphereMachinae Supremacy – Sid Icarus

There are already plans for spinning module on ISS. No need to build a new station yet.

Do you have a link to that? The closest thing I could find was a centrifuge that two astronauts would strap into, and they would spin for an hour. It looks like they studied this approach in Houston for a while, but scrapped the idea.

Yes, the heart, bones and muscle get a lot weaker. The immune system becomes less effective. But if you are in microgravity, where they are needed much less, and UV lamps can be used to sterilize everything left and right, the limited body functionality seems tolerable.

If hundreds of millions of dollars are involved, keep the person alive in a hospital with multiple doctors hired to look solely after the astronaut, upon return to Earth.

Hell, if cancer from radiation is a big concern, in spite of being inside of Earth's magnetosphere, the astronaut can undergo thorough cancer screening every month for the rest of their life.

I would like to know what health problems would make an astronaut after a decade in LEO and microgravity less than, lets say 1/4 as productive, as an astronaut fresh from Earth. This is presuming medicines can be brought up from Earth.

_________________Say, can you feel the thunder in the air? Just like the moment ’fore it hits – then it’s everywhereWhat is this spell we’re under, do you care? The might to rise above it is now within your sphereMachinae Supremacy – Sid Icarus